i wanted the slope with respect to time frame

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CalebJones el 4 de Sept. de 2019

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https://es.mathworks.com/matlabcentral/answers/478799-i-wanted-the-slope-with-respect-to-time-frame

Comentada: Star Strider el 20 de Sept. de 2019

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HbO_Good_channels.mat

I wanted to calculate slope of channel 1 to 15 with respect to the time frame. The values in the tables are HbO values which should be Y axis and X axis should be time time frame which in this case is 1510.

I have attached my data file as well.

How do i calculate the slope of channels 1 to 15 indivijually and place the values in a different table and perhaps even plot to visually see it????

Slope: the value that fits a regression line to the given data set.
https://journals.plos.org/plosone/article/figure/image?size=medium&id=info:doi/10.1371/journal.pone.0208843.g007

Something similar to the url i have posted above.

Thank you

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Jan el 4 de Sept. de 2019

The question is not clear. What are "channels 1 to 15"? Why did you highlight the first cell? What are "HbO" values? Where do we find the "time frame"?

CalebJones el 4 de Sept. de 2019

Jan HbO is Heomoglobin values. Highlighted 1st column is HbO amplitude for channel 1 which is outputed from the machine.

Time frame is row index which starts at 1 and ends at 1510.

So 15 columns shows HbO amplitude of 15 channels.

So i wanted to perform polyfit func on curve from channel 1.

So one by one i wanted to calculate the slope of each channel so.

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Star Strider el 4 de Sept. de 2019

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First, negative values for haemoglobin or oxyhaemoglobin do not make sense physiologically.

I have no idea what you want to do, so start with:

D = load('HbO_Good_channels.mat');
HbO = D.HbO_good_channel;
Ts = 35/size(HbO,1);                                                    % Create A Sampling Interval, Since None Are Provided
T = linspace(0, size(HbO,1), size(HbO,1))*Ts;                           % Time Vector
lgdc = sprintfc('Ch %2d', 1:size(HbO,2));                               % Legend String Cell Array (Channels)
figure
plot(T, HbO)
grid
xlabel('Time')
ylabel('HbO')
legend(lgdc, 'Location','eastoutside')
for k = 1:size(HbO,2)
    cfs(k,:) = polyfit(T(:), HbO(:,k), 3);                              % Coefficient Vectors: ‘polyfit’
end
figure
hold all
for k = 1:size(HbO,2)
    pf(:,k) = polyval(cfs(k,:), T(:));                                  % Evaluate Fitted Polynomials
    plot(T, pf(:,k))
end
hold off
grid
xlabel('Time')
ylabel('Regression Fit')
legend(lgdc)

Experiment to get the resultl you want.

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Star Strider el 4 de Sept. de 2019

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Use polyder on the output of polyfit, the polynomial created by polyfit. Then use polyval to create an evaluated vector to plot the derivative of the polynomial created by polyfit, the same way as you would use polyval on the original polyfit output, if you need to evaluate it and plot it.

The slope would be given by the polyder polynomial, evaluated at the appropriate points with respect to your independent variable.

If you have the Statistics and Machine Learning Toolbox, use the kurtosis function to evaluate your vector. See the documentation for details. The other functions are mean and std.

Taking one channel to demonstrate the derivative:

Ch1 = HbO(:,1);                                                         % Example Channel
P = polyfit(T(:), Ch1, 3);                                              % Polynomial Fit
Pf = polyval(P,T);                                                      % Evaluate Polynomial
dP = polyder(P);                                                        % Derivative Polynomial
dPf = polyval(dP,T);                                                    % Evaluate Derivative Polynomial
figure
plot(T, Pf,    T, dPf)
grid
legend('Polynomial Fit', 'Derivative of Polynomial Fit', 'Location','SE')

That should get you started. Experiment to get the result you want.

CalebJones el 20 de Sept. de 2019

matlab.mat

Star Strider ,

Is this right way ?

I have a mat file below of the dataset.

You have to predict rest or active!

Star Strider el 20 de Sept. de 2019

I have no idea. As I mentioned before, I have very little recent experience with classification, and essentially no experience with SVM.

I suggest that you open a new Question on this.

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Jan el 4 de Sept. de 2019

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https://es.mathworks.com/matlabcentral/answers/478799-i-wanted-the-slope-with-respect-to-time-frame#answer_390397

Editada: Jan el 4 de Sept. de 2019

Maybe all you need is to call the gradient(X.') function, where X is the complete matrix?

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